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Proteomic analysis is the large-scale identification and characterization of proteins including post translational modifications. Proteomics encompasses a number of approaches including bottom-up and top-down workflows which are widely used independently and complementary as tools for the successful study of protein species. However, up to the present day these techniques have not been able to overcome every analytical limitation. Mass spectrometry has played a vital role alongside proteomics in providing the required analytical means of detecting protein amounts down to the atomole range. Soft ionization methods such as matrix assisted laser desorption/ionization (MALDI) and electrospray ionization (ESI) have permitted the transfer of peptides and intact proteins into the gas phase without extensive degradation. The introduction of recent developments in MALDI technology such as the highly sensitive 4-chloro-alpha-cyanocinnamic acid matrix (Cl-CCA) as well as the commercial availability of a MALDI-LTQ-Orbitrap which boosts peptide mass accuracy below 3 parts per million (ppm), have offered new prospective in protein analysis. The aim of the current study is to incorporate these new aspects and provide further advancements in gel-based as well as gel-free proteomic workflows.
Peptides of proteolytically digested proteins are routinely analyzed by means of peptide mass fingerprinting (PMF) often combined with MS/MS analyses to complement and substantiate PMF results by peptide sequence information. The most widely used protease for enzymatic digestion is trypsin, since it exhibits a very specific cleavage behavior limited to C-terminal hydrolyses after basic amino acids. However, less specific enzymes such as chymotrypsin, elastase and pepsin have emerged as useful tools in the analysis of particular protein classes e.g. membrane, cereal, and phosphorylated proteins. In this work a comprehensive bottom-up proteomic investigation including in-solution and in-gel protein digestions of analytes covering small to large, acidic to basic, and hydrophobic to hydrophilic proteins in combination with a series of less specific enzymes are presented in order to show the superiority of the novel MALDI matrix Cl-CCA. The Cl-CCA matrix proved to be highly superior compared to standard α-cyano-4-hydroxycinnamic acid (CHCA) since an average detection of more than 2- to 3-fold peptide amount was possible depending on the used protease and, therefore, resulting in strongly increased sequence coverage. Additionally, protein identification of chymotrypsin and elastase in-gel digested protein standards was evaluated. The MALDI-LTQ-Orbitrap providing peptide mass accuracy below and up to 3 ppm in combination with Cl-CCA as matrix and newly optimized digestion conditions led to unambiguous protein identifications of all chymotryptic digests outperforming its tryptic counterparts in the case of hydrophobic bacteriorhodopsin and α-globin from hemoglobin A (α-HgbA). In addition, significantly higher sequence coverage and increased number of detected peptides was acquired. Moreover, a proposed workaround for elastase digestions was capable of providing a solution for successful identification results.
Apart from digestions of singly separated proteins, solution isoelectic focusing (sIEF) was evaluated. OFFGEL fractionation is an efficient means of fractionating peptides and proteins according to their isoelectric point (pI) values through immobilized pH gel (IPG) strips after which samples are recovered in solution. Consequently, an issue of peptide recovery arises as a category of peptides relatively insoluble to the recovery solution should be present. A method was developed including the scraping of gel matrix from the IPG strips and peptide extraction using acetonitrile as organic solvent in combination with analytical techniques such as nLC-MALDI-MS/MS for peptide identification. The nature of the peptide species remaining in-gel was analysed and attributed to peptide solubility. A general trend in which a high percentage of neutral and hydrophobic peptides remaining entrapped in the IPG gel strip was observed.
The present work also examines a new top-down proteomic workflow involving protein elution from cleavable gels containing the labile crosslinker ethylene-glycol-diacrylate (EDA). Protein amounts of as low as 100 ng loaded onto EDA gels were detected using MALDI-TOF MS in the linear acquisition mode. Proteins from 8.5 up to 78 kDa were successfully measured including a hydrophobic 15 kDa core protein attaining a GRAVY score of +0.079. Additionally, the method was compatible with one dimensional protein separation as well as for 2-D IEF/SDS-PAGE. Lastly, two methods for protein identification were tested and found to be compatible to the proposed technique.
Clathrin-mediated endocytosis (CME) involves spatially and temporally restricted molecular dynamics.
Although protein kinases and the actin cytoskeleton contribute to the process, whether and how
functions of kinases and actin are integrated remains unknown. Here, we demonstrate that neural
Wiskott-Aldrich syndrome protein (N-WASP) and protein kinase CK2 form a complex and localize on
clathrin-coated vesicles (CCVs). N-WASP binds to and is phosphorylated by CK2, thereby reducing the
kinase activity of CK2. By contrast, N-WASP-promoted actin polymerization is decreased upon both
phosphorylation and binding of CK2. Knockdown of N-WASP and CK2, alone or in combination, results
in impaired endocytosis of epidermal growth factor (EGF) and increased cell-surface levels of EGF
receptor (EGFR). In order to rescue the phenotype of N-WASP-CK2 knockdown cells, both N-WASP and
CK2 activities and abilities to assemble in a complex are required. In summary, this study shows that the
N-WASP-CK2 complex integrates in a single circuit different activities contributing to CME of EGFR and
that the interplay between the two proteins optimizes this process.
Towards a THz Bloch laser
(2011)
The realisation of tunable THz laser sources working at room temperature would give
rise to further applications in this range of the electromagnetic spectrum. The THz
Bloch laser could therefore become the basis for a technological breakthrough. Beside
this practical relevance, the physics of the gain mechanism has been investigated
theoretically for a long time and the experimental implementation of a self-starting
laser still has not been achieved.
At the beginning of this thesis the basic principles of Bloch oscillations and the
related Bloch gain are described. The need of a superlattice structure to make Bloch
oscillations possible in a semiconductor material is discussed. In this context, the effect
of negative differential resistance and its influence on the field distribution due to Gunn
domains is explained. The latter lead to an inhomogeneous field which may suppress
the Bloch gain mechanism. The Krömer criterion is introduced and the concept of
field-pinning layers to improve the field homogeneity is deduced. Finally, the design of
the laser material is shown and different types of laser waveguides are compared.
In chapter 3 detailed recipes for the processing of samples are given. Different types of
contacts (ohmic and Schottky), the wafer bonding process required for double-metal
lasers and the application of different photoresists for different purposes are described.
An explanation of the formation of waveguides due to dry etching, wet etching
and ion implantation follows. Dry etching is an established technique in the field
of microstructure processing but the challenge of etching about 20 μm has led to
problems. The high etching depth also makes wet etching difficult but this method
could be improved due to a hard bake of the photoresist. The protection of critical
areas on the surface of the samples with photoresist during ion implantation was
increased by optimising the spin coating process. However, a full implantation of the
active layer between the waveguides was not achieved which was the reason for the
development of the hybrid technology. Here a prior wet etching of about 10 μm is
performed and the rest of the material is implanted.
The experimental setup is shown in chapter 4. An alternative method for the electrical
contacting with the help of a copper bar is introduced. This improves the current
distribution and the risk of an electrical breakdown during the measurements could
therefore be lowered. Devices for THz beam guidance and spectroscopic measurements
are shown and the method of biasing the samples with pulses below 100 ns and
determining the effective voltage applied to the sample is depicted. These short pulses
are required to prevent the samples heating up drastically due to high power.
Chapter 5 contains the current-voltage characterisation of several structures including
I-V-samples, Bloch laser samples and a quantum cascade laser. Different contacts
(ohmic and Schottky) and different techniques for the formation of the ridges have
been used in the processing of these samples (performed at the University of Frankfurt
in all cases) and their influence on the I-V-dependence is discussed. The properties of
the THz emission of the quantum cascade laser are in good agreement with published
results from lasers processed with the same material. Another important result of
this chapter is that the Bloch laser samples show unstable behaviour compared to the
quantum cascade structure even with short pulses (of about 10 ns) where the risk of an
electrical breakdown or the building of filaments is low. THz radiation emitted from
one of the Bloch laser samples could not be observed.
Two aspects that may have prevented the Bloch laser to emit are discussed in
chapter 6. The saturation of the gain for higher amplitudes of the THz wave is
investigated in single mode and multiple mode operation (the latter could occur due
to the Bloch gain being expected to be broadband). In both cases it is shown that
the saturation effect would limit the output power only to values clearly above the
detection limit. In the subsequent section the distribution of the electric field is
simulated with SILVACO software. Structures with transit layer lengths above the
Krömer criterion are compared with structures which include field-pinning layers. It is
shown that the latter are useful to avoid propagating Gunn domains as they build up
in similar structures without field-pinning layers. Nevertheless, the electric field inside
the superlattice regions is not stable. Beside spatial inhomogeneities also temporal
variations of the field magnitude are observed. The lack of a suitable field distribution
is expected to be the main reason for the samples not to work.
The miniaturization of electronics is reaching its limits. Structures necessary to build integrated circuits from semiconductors are shrinking and could reach the size of only a few atoms within the next few years. It will be at the latest at this point in time that the physics of nanostructures gains importance in our every day life. This thesis deals with the physics of quantum impurity models. All models of this class exhibit an identical structure: the simple and small impurity only has few degrees of freedom. It can be built out of a small number of atoms or a single molecule, for example. In the simplest case it can be described by a single spin degree of freedom, in many quantum impurity models, it can be treated exactly. The complexity of the description arises from its coupling to a large number of fermionic or bosonic degrees of freedom (large meaning that we have to deal with particle numbers of the order of 10^{23}). An exact treatment thus remains impossible. At the same time, physical effects which arise in quantum impurity systems often cannot be described within a perturbative theory, since multiple energy scales may play an important role. One example for such an effect is the Kondo effect, where the free magnetic moment of the impurity is screened by a "cloud" of fermionic particles of the quantum bath.
The Kondo effect is only one example for the rich physics stemming from correlation effects in many body systems. Quantum impurity models, and the oftentimes related Kondo effect, have regained the attention of experimental and theoretical physicists since the advent of quantum dots, which are sometimes also referred to as as artificial atoms. Quantum dots offer a unprecedented control and tunability of many system parameters. Hence, they constitute a nice "playground" for fundamental research, while being promising candidates for building blocks of future technological devices as well.
Recently Loss' and DiVincenzo's p roposal of a quantum computing scheme based on spins in quantum dots, increased the efforts of experimentalists to coherently manipulate and read out the spins of quantum dots one by one. In this context two topics are of paramount importance for future quantum information processing: since decoherence times have to be large enough to allow for good error correction schemes, understanding the loss of phase coherence in quantum impurity systems is a prerequisite for quantum computation in these systems. Nonequilibrium phenomena in quantum impurity systems also have to be understood, before one may gain control of manipulating quantum bits.
As a first step towards more complicated nonequilibrium situations, the reaction of a system to a quantum quench, i.e. a sudden change of external fields or other parameters of the system can be investigated. We give an introduction to a powerful numerical method used in this field of research, the numerical renormalization group method, and apply this method and its recent enhancements to various quantum impurity systems.
The main part of this thesis may be structured in the following way:
- Ferromagnetic Kondo Model,
- Spin-Dynamics in the Anisotropic Kondo and the Spin-Boson Model,
- Two Ising-coupled Spins in a Bosonic Bath,
- Decoherence in an Aharanov-Bohm Interferometer.
The study of meson production in proton-proton collisions in the energy range
up to one GeV above the production threshold provides valuable information about
the nature of the nucleon-nucleon interaction. Theoretical models describe the interaction
between nucleons via the exchange of mesons. In such models, different
mechanisms contribute to the production of the mesons in nucleon-nucleon collisions.
The measurement of total and differential production cross sections provide information
which can help in determining the magnitude of the various mechanisms.
Moreover, such cross section information serves as an input to the transport calculations
which describe e.g. the production of e+e− pairs in proton- and pion-induced
reactions as well as in heavy ion collisions.
In this thesis, the production of ω and η mesons in proton-proton collisions at 3.5
GeV beam energy was studied using the High Acceptance DiElectron Spectrometer
(HADES) installed at the Schwerionensynchrotron (SIS 18) at the Helmholtzzenturm
f¨ur Schwerionenforschung in Darmstadt.
About 80 000 ω mesons and 35 000 η mesons were reconstructed. Total production
cross sections of both mesons were determined. Furthermore, the collected statistics
allowed for extracting angular distributions of both mesons as well as performing
Dalitz plot studies.
The ω and η mesons were reconstructed via their decay into three pions (π+π−π0)
in the exclusive reaction pp −→ ppπ+π−π0. The charged particles were identified
via their characteristic energy loss, via the measurement of their time of flight and
momentum, or using kinematics.
The neutral pion was reconstructed using the missing mass method. A kinematic
fit was applied to improve the resolution and to select events in which a π0 was
produced.
The correction of measured yields for the effects of spectrometer acceptance was done
as a function of four variables (two invariant masses and two angles). Systematic
studies of the acceptance for different input distributions were performed.
The measured yields were normalized to the number of measured events of elastic
scattering. Systematic errors due to the methods of the data analysis and the
background subtraction were investigated.
Production angular distributions of ω and η mesons were measured. Both mesons
exhibit a slightly anisotropic angular distribution.
The Dalitz plot of ω meson production shows indications of resonant production.
However, the deviation of the distribution from the one expected by phase space
simulations is not large.
The Dalitz plot of η meson production shows a signal of the production via the
N(1535) resonance, The contribution of N(1535) to the production was quantified
to be about 47%. The angular distribution of η mesons does not show significant
differences between resonant and non resonant production.
The total production cross section of ω mesons in the reaction pp −→ ppω was
determined to be 106.5 ± 0.9 (stat) ± 7.9 (sys) [μb] where stat indicates statistical
error and sys indicates systematic error, while that of η mesons was determined to
be 136.9 ± 0.9 (stat) ± 10.1 (sys) [μb] in the reaction pp −→ ppη
Occurrence and sources of 2,4,7,9-tetramethyl-5-decyne-4,7-diol (TMDD) in the aquatic environment
(2011)
The aim of the present study was to identify the sources of 2,4,7,9-tetramethyl-5-decyne-4,7-diol (TMDD) into the aquatic environment and to investigate its occurrence in rivers and wastewater treatment plants (WWTPs). Therefore, TMDD was analyzed in 441 wastewater samples from influents and effluents of 27 municipal WWTPs, in 6 sludge samples, in 52 wastewater samples from 3 sewage systems of municipal WWTPs, in 489 surface samples from 24 rivers, in 9 wastewater samples of 3 paper-recycling industries and in 65 groundwater samples. TMDD was also analyzed in household paper products, in 23 samples of toilet
papers, in 5 types of paper towels and in 12 types of paper tissues. The samples were collected between 2007 and 2011. The water samples were extracted with solid phase extraction (SPE) and the household paper samples with Soxhlet extraction. Gas chromatography-mass spectrometry (GC-MS) was used for quantification purposes. Between November 2007 and January 2008, TMDD was detected in the river Rhine at Worms with permanent high concentrations (up to 1330 ng/L). The results showed that TMDD is uniformly distributed across the river at Worms. An increase of the mean TMDD concentration from approximately 500 ng/L to 1000 ng/L was registered in January 2008. Due to the minor fluctuations of the TMDD concentration during the sampling period it is expected that the input of TMDD into the river is continuous. Therefore, TMDD might rather originate from effluents of municipal WWTPs than from temporal sources. The mean TMDD load based on the analysis of 147 water samples collected in the River Rhine was 62.8 kg/d which is equivalent to 23 t/a suggesting that TMDD must be used and/or produced in high quantities in order to be found in those high concentrations. To determine if TMDD is discharged by effluents of municipal WWTPs into the rivers, 24 hours influent and effluent samples of four municipal WWTPs in the Frankfurt/Rhine-Main metropolitan region were collected during November 2008 and February 2010 and analyzed for TMDD. The TMDD influent concentrations varied between 134 ng/L and 5846 ng/L and the effluent concentrations between <LOQ (limit of quantitation) and 3539 ng/L. The TMDD elimination rates in the four WWTPs varied between 33% and 68%. The results showed that effluents of municipal WWTPs are an important source of TMDD in the aquatic environment because TMDD is not completely removed from the sewage during the wastewater treatment. Weekly and daily variations of the TMDD concentration in the influents of two municipal WWTPs indicated that both private households and indirect industrial dischargers contribute to the introduction of TMDD into the municipal sewage systems. A more detailed study of the TMDD elimination rate in the different wastewater treatment stages was carried out in the WWTP Niederrad/Griesheim in Frankfurt am Main. The results showed that the removal of TMDD is mainly carried out during the aerobic biological treatments, where the elimination rate was 46%. In contrast, during the anoxic treatment the removal efficiency was only 1.4% and during the mechanical treatment the elimination rate was 19%. To determine the sources of TMDD in the sewage, household paper products (paper tissues, toilet papers and paper towels) were analyzed for TMDD using Soxhlet extraction. TMDD was detected in 83% of the samples (n=40). The highest mean TMDD concentrations were found in recycled toilet paper (0.20 μg/g) and in paper towels (0.11 μg/g). In paper tissues and non-recycled toilet paper the mean TMDD concentrations were lower 0.080 μg/g and 0.025 μg/g respectively. According to these results the high TMDD influent concentrations found previously in municipal WWTPs (mean 1.20 μg/L) cannot be explained due to migration of TMDD from the household paper products into the sewage. Thus indirect industrial dischargers are the cause of the high influent TMDD concentrations. Effluents of municipal WWTPs with different indirect industrial dischargers (textile-, metal processing-, food processing-, electroplating-, paper-recycling- and printing ink factories) were analyzed. The highest mean TMDD concentrations were found in the effluents of municipal WWTPs that have paper-recycling (71.3 μg/L) and printing ink factories (138 μg/L) as indirect industrial dischargers. These results were confirmed by analyzing process wastewater of three paper-recycling factories located in Germany. High TMDD concentrations were detected and fluctuated between 1.83 μg/L and 113 μg/L. TMDD was also analyzed in the wastewater of a non-recycling-paper factory but its concentration was much lower (0.066 μg/L) indicating that TMDD is introduced into the processing water during the papermaking process due to the use of waste paper. Analyses of wastewater samples from different parts of the sewage pipes of a municipal WWTP in Hesse, which receives the wastewater from a printing ink factory, were carried out. The TMDD concentration in the wastewater sample from the sewage pipe of the printing ink factory was much higher (3,300 μg/L) than the TMDD concentration detected in the other wastewater samples from the sewage system (0.030 μg/L – 0.89 g/L). These results confirm the printing ink production as one of the principal sources of TMDD in the sewage. Analysis of surface water samples of the River Modau downstream from the effluent of the WWTP Nieder-Ramstadt showed TMDD concentrations of up to 28.0 μg/L. These high TMDD concentrations might be caused by the indirect wastewater discharges of a paint factory connected to the municipal sewage system. These results indicate that TMDD is introduced into the municipal WWTPs principally by indirect industrial dischargers and they are mainly paint and printing ink factories. The paper-recycling factories also represent an important source of TMDD in municipal WWTPs but indirectly. According to statements given by the representatives of two paper recycling factories neither TMDD or any other TMDD containing product is used or added during the papermaking process. Therefore, TMDD is washed out from the printing inks of the coloured waste paper and concentrated in the process wastewater in the closed water circuits of paper-recycling factories reaching rivers and municipal WWTPs. The occurrence and distribution of TMDD in surface waters in Germany was also studied. The results showed that TMDD is widely distributed across different rivers systems in the federal states of Hesse, North-Rhine-Westphalia, Bavaria, Baden-Wuerttemberg and Rhineland-Palatinate. In Hesse, TMDD was detected in the some of main rivers with mean concentrations of 812 ng/L (Schwarzbach, Hessian Ried), 374 ng/L (Kinzig), 393 ng/L (Main, at Frankfurt), 539 ng/L (Werra), 326 ng/L (Fulda), 151 ng/L (Emsbach) and 161 ng/L (Nidda). In small rivers (creeks) the mean TMDD concentrations varied between <LOQ (Diemel, Urselbach) and 1890 ng/L (Darmbach). The results showed that the TMDD concentrations in creeks are highly influenced by both effluents of WWTPs and by the distance between the sampling point and the nearest WWTP. Surface samples from sampling locations downstream from WWTPs dischargers showed higher TMDD concentrations (mean 518 ng/L) than sampling locations upstream from WWTPs dischargers (mean 35.1 ng/L). The behavior of TMDD during bank filtration was investigated at two locations, at a water utility company at the Lower River Rhine (urban area) and at the Oderbruch polder (rural area). The results indicated that TMDD is removed from the surface water by bank filtration at both sampling locations. The removal process is probably carried out in the first meters of the aquifer (hyporheic zone) by biodegradation processes, since TMDD does not tend to be absorbed by sediments and it was not found in the groundwater of monitoring wells. In groundwater samples from the Hessian Ried (n=23) TMDD was found only in five samples and the highest TMDD concentration was 135 ng/L. According to these results, TMDD does not represent a concern for drinking water in Germany, since it does not reach the groundwater with high concentrations and it has a low toxicity potential. The input of TMDD into the North Sea was estimated to be 60.7 t/a by considering the mean transported loads of TMDD by the River Rhine at Wesel (58.3 t/a) and Meuse in the Netherlands (2.40 t/a). The estimated discharge of TMDD by German municipal WWTPs (8.19 t/a) and paper-recycling factories (9.24 t/a) into rivers seems to be too low considering that the mean TMDD load in the River Rhine downstream from Wesel is 58.3 t/a. However, due to the high density of population and industries at the Lower Rhine it is expected that more relevant sources of TMDD are located along the Rhine River increasing the transported load. According to the results of this PhD project TMDD is a non-ionic surfactant contained in products, which are applied on surfaces (printing inks and paints) and has the potential to reach the aquatic environment. Therefore, TMDD should fulfill the requirement of a biodegradability of 80% established by the “Law on the Environmental Impact of Detergents and Cleaning Products” in Germany. However, due to the partial elimination rates of TMDD obtained in municipal WWTPs (between 33% and 68%) and to the absence of information about the execution of the biodegradation test on TMDD, it is unknown if TMDD is in accordance with this law. Otherwise, its use as surfactant in such products is questionable.
During the last years, chemopreventive activity of NSAIDs against a great variety of tumors was highly investigated. COX-2 seemingly plays a major part in tumorigensis and tumor development, underlined by several studies in animals and humans. At first, NSAIDs were thought to accomplish chemoprevention by inhibition of COX-2 as their so far known mode of action comprises unselective inhbition of COX-enzymes. However, further studies revealed COX-independent mechanisms. Sulindac is known as a well established drug used to treat inflammation and pain exerting the most prominent chemopreventive action, mainly in colorectal cancer or FAP and can be classified into the group of NSAIDs inhibting both COX-isoformes. As interference with the AA metabolism is evident, it was speculated whether Ssi has targets other than COX-enzymes providing evidence and explanation of its beneficial side effect profile and its ability to reduce tumor growth. 5-LO is another master enzyme in the AA cascade which produces inflammatory lipid mediators (LTs) upon stimulation in inflamed tissues. The present work should answer the question if Ssi targets the 5-LO pathway and should examine the molecular mechanisms behind Ssi-mediated 5-LO inhibiton. As COX-2 is upregulated during carcinogenesis and is inhibited by Ssi, further investigations should show regulatory effects of Ssi on 5-LO gene expression in MM6-cells and whether Sp1 as a common transcriptional factor is involved in such a regulation. As the use of NO-NSAIDs seem to be a promising strategy concerning their chemopreventive and gastroprotective effects compared to the parent NSAIDs, a possible interaction with the 5-LO pathway as a second, potent target should additionally be elucidated. In the first section it was demonstrated that the pharmacologically active metabolite of sulindac, Ssi, targets 5-LO. Ssi inhibited 5-LO in ionophore A23187- and LPS/fMLP-stimulated human PMNL (IC50 ≈ 8 -10 μM). Importantly, Ssi efficiently suppressed 5-LO in human whole blood at clinically relevant plasma levels (IC50 = 18.7 μM). Ssi was 5-LO-selective as no inhibition of related lipoxygenases (12-LO, 15-LO) was observed. The sulindac prodrug and the other metabolite, sulindac sulfone, failed to inhibit 5-LO. Mechanistic analysis demonstrated that Ssi directly suppresses 5-LO with an IC50 of 20 μM. Together, these findings may provide a novel molecular basis to explain the COX-independent pharmacological effects of sulindac under therapy. In the second part of the work dealing with the analysis of Ssi’s inhibitory mechanism on 5-LO it was presented that Ssi shows a lack of potency in cellular systems where membrane constituents are existent. The addition of microsomal fractions of PMNLto crude 5-LO enzyme were able to recover enzyme activity to ~ 100 %. Selectively 5-LO activity stimulating lipids like PC, participating in 5-LO membrane interactions within the regulatory C2-like domain of 5-LO, counteracted the Ssimediated inhibition on 5-LO-wt in a concentration-dependent manner. Lastly, a protein mutant lacking three trp resudies essential for linking the enzyme to nuclear membranes and deploying catalytic activity was not influenced by Ssi and shows enzyme activity in a cell-free assay. Ssi displays the first 5-LO inhibitor on the market interacting with the C2-like domain of the enzyme and therfore can stand for a novel lead structure of 5-LO inhibitors. An influence on 5-LO gene expression by Ssi could be detected in differentiated MM6-cells, described in the results chapter 3 (4.3). Ssi downregulated the 5-LO mRNA level after 72 hrs of incubation in differentiated MM6-cells to ~ 20 % of output control at concentrations of 10 μM. Concomitantly, mRNA levels of Sp1 were suppressed. Reporter gene studies revealed Sp1 most probably as a regulating agent involved in the Ssi-mediated 5-LO mRNA downregulation as co-transfection of increasing amounts of Sp1 could abrogate the effect. A ChIP assay could identify Sp1 as a critical transcriptional factor as Sp1 binding to the 5-LO promoter decreased in presence of Ssi. Lastly, three NO-NSADIs (NO-sulindac, NOnaproxen, NO-aspirin) were tested for the ability of 5-LO product inhibition. In intact PMNL, all compounds showed effective inhibition of 5-LO activity and NO-sulindac was most potent with an IC50 value of ~ 3 μM. NO-ASA inhibited 5-LO with IC50 values of ~ 30 μM and showed a non-competitive mode of action in cell-based assays. On human recombinant 5-LO all compounds again showed inhibitory potency whereas NO-sulindac again suppressed LT biosynthesis with an IC50 vaue comparable to intact cellular systems. Unfortunately, all inhibitors showed a loss of potency when tested for inhibition of 5-LO product synthesis in human whole blood as higher concentrations up to 100 μM were needed to reach at least 55 % enzyme inhibition. However, this strategy of 5-LO inhibition seems promising and needs further experimental approaches to gain more insight into the mechanism of 5-LO inhibition by NONSAIDs.
5-lipoxygenase (5-LO) catalyzes the first two steps in leukotriene (LT) biosynthesis. In a two step reaction the enzyme oxygenates arachidonic acid (AA) to form the highly unstable epoxide leukotriene A4 (LTA4) in dehydrating a hydroperoxide intermediate (20). LTA4 can then be further metabolized by two terminal synthases yielding either the potent chemoattractant leukotriene B4 (LTB4) or the cysteinyl leukotrienes (CysLTs). 5-LO enzyme expression is primarily found in mature leukocytes (22) where it can either reside in the cytoplasm or in the nucleus associated with euchromatin (29). Its enzymatic activity is embedded in a complicated network in intact cells regulating LT synthesis by various factors dependent on the cell type and nature of stimulus. Factors such as the amount of free AA released by phospholipase A2 enzymes, levels of enzymes involved, catalytic activity per enzyme molecule and availability of different small molecules influence 5-LO activity (36).
The 5-LO derived LTs are lipid mediators which were shown to primarily mediate inflammatory and allergic reactions and their role in the pathogenesis of asthma is well defined. CysLTs are among the most potent bronchoconstrictors yet studied in man and play an important role in airway remodeling. LTB4 has no bronchoconstrictory effects in healthy and asthmatic humans but displays potent chemoattractant properties on neutrophils and increases leukocyte adhesion to the vessel wall endothelium (22). Therefore, LTB4 enhances the capacity of macrophages and neutrophils to ingest and kill microbes. In concert with LTB4, histamine and prostaglandin E2 (PGE2) CysLTs are thought to maintain the tone of the human airways (82).
Besides their well studied role in asthma, 5-LO derived LTs have also been implicated to play a role in cardiovascular diseases and cancer. In contrast to healthy tissues, LT pathway enzymes and receptors were found to be abundantly expressed in cancer tissues, atherosclerotic lesions in the aorta, heart and carotid artery (86). Pharmacological inhibition of 5-LO potently suppressed tumour cell growth by inducing cell cycle arrest and triggering cell death via the intrinsic apoptotic pathway (92, 93). In several studies LTs were found to exhibit cardiovascular actions by promotion of plasma leakage in postcapillary venules, coronary artery vasoconstriction and impaired ventricular contraction leading to reduced coronary blood flow and cardiac output (24). Unfortunately, the precise molecular mechanisms through which LTs influence carcinogenesis and cardiovascular diseases are still incompletely understood.
In contrast, an increasing number of studies questions the correlation between 5-LO and cancer (95-97) since extreme LT concentrations were applied to induce proliferative effects in the majority of the publications. A few studies exist which show susceptibility towards 5-LO products in physiological concentrations or achieve anti-proliferation by applying low concentrations of 5-LO inhibitors (98) ...
The aim of this study is a better understanding of radiation processes in regional climate models (RCMs) in order to quantify their impact and to reduce possible errors. A first important task in finding an answer to this question was to examine the accuracy of the components of the radiation budget in regional climate simulations. To this end, the simulated radiation budgets of two regional climate simulations for Europe were compared with a satellite-based reference. In the simulations with the RCM COSMO-CLM there were some serious under- and overestimations of short- and long-wave net radiation in Europe. However, taking into account the differences in the reference datasets, the results of the COSMO-CLM were quite satisfactory.
Using statistical methods, the influence of potential sources of uncertainties was estimated. Uncertainties in the cloud cover and surface albedo had a significant impact on uncertainties in short-wave net radiation, the explained variance of uncertainties in cloud cover was two to three times higher than that of uncertainties in surface albedo. Uncertainties in the cloud cover resulted in significant errors in the net long-wave radiation. However, the influence of uncertainties in soil temperature on errors in the long-wave radiation budget was low or even negligible. These results were confirmed in a comparison with simulations of the REMO and ALADIN regional climate models. It is reasonable to expect that a better parameterization of relatively simple parameters such as cloud cover and surface albedo is a means of significantly improving the simulation of radiation budget components in the COSMO-CLM.
An important question for the application of RCMs is to examine whether the results of radiation uncertainties and their impact factors are comparable if the model is applied in a region that is not the one for which it was originally created. Comparisons of the simulated radiation budgets of different RCMs for West Africa showed that problems in the simulation of short- and long-wave radiation fluxes were a widespread problem. Most of the tested models showed some considerable under- or overestimation of the short- and long-wave radiation fluxes.
Similar to Europe uncertainties in cloud cover were also in the simulations for Africa a significant factor affecting uncertainties in the simulated radiation fluxes. However, for the African simulations uncertainties in the parameterization of surface albedo were much more important than in Europe. On average, overland uncertainties in the cloud cover and surface albedo were of similar importance. Uncertainties in soil temperature simulations were of higher importance in Africa, and reached overland similar values of the mean explained variance (R2 ≈ 0.2) such as uncertainties in the cloud cover. This indicates a geographical dependence of the model error. This study confirmed the assumption that an improved parameterization of relatively simple parameters such as the surface albedo in RCMs leads to a significant improvement in the modeled radiation budget, particularly in Africa.
The influence of errors in the simulated radiation budget components on the simulation of climate processes, such as the West-African monsoon (WAM), was investigated in a next step. The evaluation of ERA-Interim and ECHAM5 driven COSMO-CLM simulations for Africa showed that the main features of the WAM were well reproduced by the model, but there were only slight improvements compared to the driving data. The index of convective activity in the model simulations was much too high and precipitation was underestimated in large parts of tropical Africa. The partly considerable differences between the ERA-Interim and ECHAM5 driven simulations demonstrated the sensitivity of the RCM to the boundary conditions and in particular to the sea surface temperature. An excessive northwards shift of the monsoon in the model was influenced by the land-sea temperature gradient and the strength of the Saharan heat low. Consequently, a part of the error was due to the driving data and the model itself produced another part.
By modifying the parameterization of the bare soil albedo the errors in the radiation budget and 2 m temperature in the Sahara region were significantly reduced. Similarly, the overesti-mation of precipitation and convection has been reduced in the Sahel. The effect of this modifi-cation on the examined WAM area was low. This confirmed that especially in desert regions, errors in the surface albedo were a driving factor for errors in the radiation budget. However, there are other important factors not yet sufficiently understood that have a strong influence on the quality of the simulation of the WAM.
The analysis of the actual state, the quantification of error sources and the highlighting of connections made it possible to find means to reduce uncertainties in the simulated radiation in RCMs and to have a better understanding of radiation processes. However, the magnitude of the errors found, the number of possible influencing factors, and the complexity of interactions, indicate that there is still a need for further research in this area.
According to the World Health Organization (WHO) bacterial resistance to antibiotic drug therapy is emerging as a major public health problem around the world. Infectious diseases seriously threaten the health and economy of all countries. Hence, the preservation of the effectiveness of antibiotics is a world wide priority. The key to preserving the power of antibiotics lies in maintaining their diversity. Many microorganisms are capable of producing these bioactive products, the so called antibiotics. Specifically in microorganisms, polyketide synthases (PKS) and non-ribosomal peptide synthases (NRPS) produce these natural bioactive compounds. Besides being used as antibiotics these non-ribosomal peptides and polyketides display an even broader spectrum of biological activities, e.g. as antivirals, immunosuppressants or in antitumor therapy. The wide functional spectrum of the peptides and ketides is due to their structural diversity. Mostly they are cyclic or branched cyclic compounds, containing non-proteinogenic amino acids, small heterocyclic rings and other unusual modifications such as epimerization, methylation, N‐formylation or heterocyclization. It is has been shown that these modifications are important for biological activity, but little is known about their biosynthetic origin.
PKS and NRPS are multidomain protein assembly lines which function by sequentially elongating a growing polyketide or peptide chain by incorporating acyl units or amino acids, respectively. The growing product is attached via a thioester linkage to the 4’-phosphopantetheine (4’-Ppant) arm of a holo acyl carrier protein (ACP) in PKSs or holo peptidyl carrier protein (PCP) in NRPSs and is passed from one module to another along the chain of reaction centers. The modular arrangement makes PKS and NRPS systems an interesting target for protein engineering. More than 200 novel polyketide compounds have already been created by module swapping, gene deletion or other specific manipulations. Unfortunately, however, engineered PKS often fail to produce significant amounts of the desired products. Structural studies may faciliate yield improvement from engineered systems by providing a more complete understanding of the interface between the different domains. While some information about domain-domain interactions, involving the most common enzymatic modules, ketosynthase and acyltransferase, is starting to emerge, little is known about the interaction of ACP domains with other modifying enzymes such as methyltransferases, epimerases or halogenases.
To further improve the understanding of domain-domain interactions this work focuses on the curacin A assembly line. Curacin A, which exhibits anti-mitotic activity, is from the marine cyanobacterium Lyngbya majuscula. This outstanding natural product contains a cyclopropane ring, a thiazoline ring, an internal cis double bond and a terminal alkene. The biosynthesis of curacin A is performed by a 2.2 Mega Dalton (MDa) hybrid PKS-NRPS cluster. A 10-enzyme assembly catalyzes the formation of the cyclopropane moiety as the first building block of the final product. Interestingly, for these enzymes the substrate is presented by an unusual cluster of three consecutive ACPs (ACPI,II,III). Little is known about the function of multiple ACPs which are supposed to increase the overall flux for enhanced production of secondary metabolites.
The first task in this work was to elucidate the structural effect of the triplet ACP repetition by nuclear magnetic resonance (NMR). The initial data show that the excised ACPI, ACPII or ACPIII proteins resulted in [15N, 1H]-TROSY spectra with strong chemical shift perturbations (CSPs), suggesting an effect on the structure. The triplet ACP domains display a high sequence identity (93- 100%) making structural investigation using usual NMR techniques due to high peak overlap impossible. To enable the investigation of the triplet ACP in its native composition we developed a powerful method, the three fragment ligation. Segmental labeling allows incorporating isotopes into one single domain in its multidomain context. As a result we could prepare the triplet ACP with only one domain isotopically labeled and therefore assign the full length protein. In this way our method paved the way to study the structural effects of the triplet ACP repetition. We could show unexpectedly, that, despite the fact that the triplet repeat of CurA ACPI,II,III has a synergistic effect in the biosynthesis of CurA, the domains are structurally independent.
In the second part of this work, we studied the structure of the isolated ACPI domain. Our results show that the CurA ACPI undergoes no major conformational changes upon activation via phosphopantetheinylation and therefore contradicts the conformational switching model which has been proposed for PCPs. Further we report the NMR solution structures of holo-ACPI and 3-hydroxyl-3-methylglutaryl (HMG)-ACPI. Data obtained from filtered nuclear overhauser effect (NOE) experiments indicate that the substrate HMG is not sequestered but presented on the ACP surface.
In the third part of this work we focussed on the protein-protein interactions of the isolated ACPI with its cognate interaction partners. We were especially interested in the interaction with the halogenase (Cur Hal), the first enzyme within the curacin A sub-cluster, acting on the initial hydroxyl-methyl-glutaryl (HMG) attached to ACPI. Primarily we studied the interaction using NMR titration and fluorescence anisotropy measurements. Surprisingly no complex between ACPI and Cur Hal could be detected. The combination of an activity assay using matrix-assisted laser desorption/ionization (MALDI) mass spectroscopy and mutational analysis revealed several amino acids of ACPI that strongly decrease the activity of CurA Hal. Mapping these mutations according to their effect on the Cur Hal activity onto the structure of HMG-ACPI displays that these amino acids surround the substrate and form a consecutive surface. These results suggest that this surface is important for Cur Hal recognition and selectivity. Our research presented herein is an excellent example for protein-protein interactions in PKS systems underlying a specific recognition process.
Membrane proteins (MPs) constitute about 30% of the genome and are essential in many cellular processes. In particular structural characterisation of MPs is challenged by their hydrophobic nature resulting in expression difficulties and structural instability upon extraction from the membrane. Despite these challenges, progress in sample preparation and the techniques to solve MP structures has led to 281 unique MP structures as of January 2011. Through the combination of a cell-free expression system and selective labelling strategies, this thesis aimed to advance the structure determination of α-helical MPs by NMR spectroscopy and resulted in the structure determination of a seven-ransmembrane-helix protein. Results were obtained for the 5-lipoxygenase-activating protein (FLAP) and proteorhodopsin (PR). The detergent-based cell-free expression mode proved most efficient for production of both targets, but optimisation of FLAP and PR followed different routes. The presence of a retinal cofactor in PR greatly facilitated the search for an appropriate hydrophobic environment. For structural studies, NMR spectra of FLAP indicated favourable properties of the lysolipid LPPG. In contrast, PR was stable and homogenous in the short-chain lipid diC7PC. As NMR spectra of α-helical MPs are generally characterised by broad lines and signal overlap, selective labelling strategies were essential in the assignment process of both targets. For the backbone assignment of FLAP the transmembrane segment-enhanced (TMS) labelling was developed, employing the six amino acids AFGILV. These residues cluster predominantly in transmembrane helices and form long stretches allowing a large extent of backbone assignment. Besides that, the combinatorial labelling enables identification of unique pairs in the sequence based on a mixture of 15N and 1-13C-labelled amino acids. To find the optimal labelling pattern for a given primary structure, the UPLABEL algorithm has been made available and successfully applied in the backbone assignment of PR. Both selective labelling approaches greatly benefitted from the use of a cell-free expression system to reduce isotope scrambling. Additionally, the de novo structure of PR was determined with an average backbone rmsd of 1.2 Å based on TALOS-derived backbone torsion angles, intrahelical hydrogen bond restraints and distance restraints from the NOE and paramagnetic relaxation enhancement (PRE). A major bottleneck in the NMR structure determination of MPs concerns the number of long-range distances which are often limited. In PR, side chain assignment was enabled by stereo-array isotope labelling as well as selective labelling which provided 33 long-range NOEs. These NOEs stabilised the symmetry of the seven helix bundle. With a total number of 1031, the majority of long-range distances were derived from PREs. The structure of PR reveals differences to its homologues such as the absence of an anti-parallel β-sheet between helices B and C and allows conclusions towards the mechanism of colour tuning.
The role of small leucine-rich proteoglycans, biglycan and decorin, in podocytopathy and albuminuria
(2011)
Biglycan is a member of the small leucine-rich proteoglycan (SLRP) family and is involved in the assembly of extracellular matrix components. In macrophages soluble biglycan acts as an endogenous ligand of the innate immunity receptors TLR2 and TLR4. Data addressing the role of biglycan in renal pathology are surprisingly limited. In a normal kidney, biglycan is expressed mainly in the tubulointerstitium; however, in the course of various renal diseases its expression may be altered. The biological role and mechanisms of biglycan action in the pathology of renal diseases, especially those affecting glomeruli, remain poorly understood.
Albuminuria is the first detectable clinical abnormality in diabetic nephropathy. In this study we detected increased biglycan mRNA expression in glomeruli of renal biopsies of patients with incipient diabetic nephropathy, with predominant localization in podocytes. This novel finding raised the question about the role and mechanisms of biglycan action in diabetic podocyte injury and whether the mechanisms of biglycan signaling causing podocyte injury and albuminuria could be extrapolated to other glomerular diseases.
To investigate the role of biglycan in the cause of diabetic podocyte injury and albuminuria we used the murine model of STZ-induced diabetic nephropathy and wild type (Bgn+/0) and biglycan deficient (Bgn-/0) mice. We observed that biglycan was expressed on mRNA and protein levels in podocytes of diabetic Bgn+/0 mice and that diabetic Bgn+/0 mice also had significantly higher albuminuria compared to non-diabetic mice 6 and 12 weeks after disease induction. Biglycan deficiency was shown to be an important factor in albuminuria development. Namely, we observed that diabetic Bgn-/0 mice had significantly lower levels of urinary albumin compared to diabetic Bgn+/0 mice. We showed that less severe podocyte loss in the urine of diabetic Bgn-/0 mice was associated with significantly higher nephrin and podocin glomerular expression compared to diabetic Bgn+/0 mice. Our data suggested that biglycan deficiency was protective against podocyte loss into urine and might be beneficial against development of albuminuria in diabetes.
Biglycan contributed to podocyte actin rearrangement due to increased phosphorylation of Rac1 in vitro. Furthermore, biglycan induced caspase-3 activity and production of reactive oxygen species (ROS), thus enhancing apoptosis in cultured podocytes. Biglycan-induced ROS generation was TLR2/TLR4-dependent. Overexpression of soluble biglycan in wild type mice induced albuminuria under normal conditions and significantly increased albuminuria under pathological conditions (murine model of LPS-induced albuminuria). Inhibition of Rac1 activity in vivo decreased the albuminuria induced by biglycan overexpression. In patients with glomerular diseases, biglycan was detected in urine and was associated with nephrin appearance in the urine of these patients and with increased albuminuria. Collectively, our results elucidate a novel mechanism for biglycan-induced TLR2- and TLR4-dependent, Rac1- and ROS-mediated podocytopathy leading to podocyturia, albuminuria development and progression of glomerular diseases. Interfering with biglycan actions and blocking its signaling via TLR2 and TLR4 might be a potential therapeutic strategy against these diseases. To achieve this goal, the specific mechanisms for binding of biglycan to TLR2 and TLR4 must be elucidated and effective ways of preventing this binding must be developed. Nevertheless, biglycan remains the “danger signal” that activates innate immune receptors in non-immune cells and triggers the deleterious mechanisms leading to aggravation of renal injury.
Which factors determine whether a stimulus is consciously perceived or unconsciously processed? Here, I investigate how previous experience on two different time scales – long term experience over the course of several days, and short term experience based on the previous trial – impact conscious perception. Regarding long term experience, I investigate how perceptual learning does not only change the capacity to process stimuli, but also the capacity to consciously perceive them. To this end, subjects are trained extensively to discriminate between masked stimuli, and concurrently rate their subjective experience. Both the ability to discriminate the stimuli as well as subjective awareness of the stimuli increase as a function of training. However, these two effects are not simple byproducts of each other. On the contrary, they display different time courses, with above chance discrimination performance emerging before subjective experience; importantly, the two learning effects also rely on different circuits in the brain: Moving the stimuli outside the trained receptive field size abolishes the learning effects on discrimination ability, but preserves the learning effects on subjective awareness.
This indicates that the receptive fields serving subjective experience are larger than the ones serving objective performance, and that the channels through which they receive their information are arranged in parallel. Regarding short term experience, I investigate how memory based predictions arising from information acquired on the trial before affect visibility and the neural correlates of consciousness. To this end, I vary stimulus evidence as well as predictability and acquire electroencephalographic data.
A comparison of the neural processes distinguishing consciously perceived from unperceived trials with and without predictions reveals that predictions speed up processing, thus shifting the neural correlates forward in time. Thus, the neural correlates of consciousness display a previously unappreciated flexibility in time and do not arise invariably late as had been predicted by some theorists.
Admittedly, however, previous experience does not always stabilize perception. Instead, previous experience can have the reverse effect: Seeing the opposite of what was there, as in so-called repulsive aftereffects. Here, I investigate what determines the direction of previous experience using multistable stimuli. In a functional magnetic resonance imaging experiment, I find that a widespread network of frontal, parietal, and ventral occipital brain areas is involved in perceptual stabilization, whereas the reverse effect is only evident in extrastriate cortex. This areal separation possibly endows the brain with the flexibility to switch between exploiting already available information and emphasizing the new.
Taken together, my data show that conscious perception and its neuronal correlates display a remarkable degree of flexibility and plasticity, which should be taken into account in future theories of consciousness.
Ubiquitin is a highly conserved protein involved in several cellular processes like protein degradation, endocytosis, signal transduction and DNA repair. The discovery of ubiquitin-like proteins (UBL) and ubiquitin-like domains (ULD) increases the number of regulation pathways where the property of the ubiquitin-fold is profitable.
Autophagy is the catabolic pathway used in cells to deliver cytosolic components and dysfunctional organelles to the lysosome for degradation. MAP1LC3 proteins are ubiquitin-like proteins involved in one hand for the expansion of the autophagosome, which sequesters cytosolic substrates. In the other hand, these proteins (LC3- and GABARAP- subfamilies) bind to autophagic receptors linked to polyubiquitinated proteins aggregates. For this project, the 3D structure of the GABARAPL-1/NBR1-LIR complex was determined and confirmed that GABARAPL-1 belongs to the MAP1LC3 proteins family, structurally characterized by an ubiquitin-fold, consisting of a central beta-sheet formed by four beta-strands and two alpha-helices on one side of the beta-sheet, preceded N terminally by two alpha-helices, resulting in the formation of two hydrophobic pockets, hp1 and hp2. The autophagic receptor NBR1 interacts with GABARAPL-1 through the hp1 and hp2 with its LIR motif taking an extended beta conformation upon binding, forming an intermolecular beta-sheet with the second beta-strand of GABARAPL 1. This LC3- interacting region (LIR) consists of an Theta XX Gamma sequence preceded by acidic amino acids, with Theta and Gamma represented by any aromatic and hydrophobic residues, respectively. Interaction studies of the LIR domains of p62, Nix and NBR1 with different members of the MAP1LC3 proteins family indicate that the presence of a tryptophan in the LIR motif increases the binding affinity. Substitution to other aromatic amino acids or increasing the number of negatively charged residues at the N-terminus of the LIR motif, however, has little effect on the binding affinity due to enthalpy-entropy compensation, suggesting that effector proteins can interact with a wide variety of different sequences with similar and moderate binding affinities.
Additionally to be present in proteins dealing with protein folding and degradation, ubiquitin-like domain were found protein involved in the regulation of signal transduction like TBK1, a serine/threonine kinase responsible for induction of immune response. In this second project, based on the NMR chemical shifts of the TBK1 domain contained between amino acids 302 and 383, secondary structure prediction programs (TALOS and CSI) confirmed the presence of an Ubiquitin-like domain in TBK1 by identifying one alpha-helix and four beta-strands sequentially aligned like following beta-beta-alpha-beta-beta. This alignment corresponds perfectly with the secondary structure elements of Ubiquitin and proved that TBK1_ULD belongs to the UBL protein superfamily. The similarity to ubiquitin was even bigger by the presence in addition of a small beta-strand and a short helix, which are observed as the beta 5-strand and a 310-helix in Ubiquitin, respectively. The first attempts on the 3D structure determination confirmed the Ub-fold but due to the lack of assignment in TBK1_ULD, only a structure based on ubiquitin as a model was determined. Interaction studies of TBK1_ULD with the IAD-SRR domain of IRF3 showed that both side of the molecule seems involved and that the TBK1/IRF3 interaction is more complex than a one to one binding process. Unfortunately, the instability of TBK1_ULD associated to the difficulty in the purification of IAD-SRR did not allow to further study this interaction more precisely.
Finally, to overcome the difficulty encountered in NMR experiments because of low expression and/or poor solubility, an expression vector using the intrinsic property of ubiquitin was designed. Fused to proteins or peptides targets, this construct produced proteins and peptides in a larger amount than with traditional expression vectors and also with a less cost than chemical synthesis for pure labeled peptides for NMR structural studies. The presence of a hexa histidine tag was useful for the isolation and the purification of the constructs. The existence of a TEV cleavage site was created to keep the possibility of releasing the ubiquitin moiety from the expressed protein or peptide. Moreover, the ubiquitin-tag could also still be attached to the protein/peptide of interest when biophysical methods like NMR, ITC or CD spectroscopy are applied, providing the same results than for the protein/peptide moiety alone.
Agriculture of crops provides more than 85% of the energy in human diet, while also securing income of more than 2.6 billion people. To investigate past, present and future changes in the domain of food security, water resources and water use, nutrient cycles, and land management it is required to know the agricultural land use, in particular which crop grows where and when. The current global land use or land cover data sets are based on remote sensing and agricultural census statistics. In general, these only contain one or very few classes of agricultural land use. When crop-specific areas are given, no distinction of irrigated and rainfed areas is made, whereas it is necessary to distinguish rainfed and irrigated crops, because crop productivity and water use differ significantly between them.
To support global-scale assessments that are sensitive to agricultural land use, the global data set of Monthly Irrigated and Rainfed Crop Areas around the year 2000 (MIRCA2000) was developed by the author. With a spatial resolution of 5 arc-minutes (approximately 9.2 km at the equator), MIRCA2000 provides for the first time, spatially explicit irrigated and rainfed crop areas separately for each of the 26 crop classes for each month of the year, and includes multi-cropping. The data set covers all major food crops as well as cotton, while the remaining crops are grouped into three categories (perennial, annual and fodder grasses). Also for the first time, crop calendars on national or sub-national level were consistently linked to annual values of harvested area at the 5 arc-minutes grid cell level, such that monthly growing areas could be computed that are representative for the time period 1998 to 2002.
The downscaling algorithm maximizes the consistency to the grid-based input data of cropland extent [Ramankutty et al., 2008], crop-specific total annual harvested area [Monfreda et al., 2008], and area equipped for irrigation [Siebert et al., 2007]. In addition to the methodology, this dissertation describes differences to other datasets and standard scaling methods, as well as some applications. For quality assessment independent datasets and newly developed quality parameters are used, and scale effects are discussed.
Supplementary Appendices document crop calendars for irrigated and rainfed crops for each of the 402 spatial units (Appendix I), data sources of harvested area and of cropping periods for irrigated crops, country by country (Appendix K), as well as data quality parameters (Appendix L, including spreadsheet files).
It has been estimated that about 1% of live births carry severe congenital heart defects and 20-30% among them have valve malformations. Despite its medical importance the underlying cause of many valvular diseases remains undiscovered. Thus, it is important to identify genes that play a crucial role in cardiac valve formation and maturation.
A temporal RNA expression analysis of heart development suggested that the extracellular matrix protein Nephronectin might be a novel regulator of valve development and/or trabeculation. Nephronectin is transiently expressed during rat heart development at the time of heart valve morphogenesis and trabeculation. Moreover, the extracellular matrix is known to be crucial for organogenesis. It is a complex, dynamic and critical component that regulates cell behavior by modulating the activity, bioavailability, or presentation of growth factors to cell surface receptors.
In order to verify the hypothesis that Nephronectin is a novel regulator of valve formation and/or trabeculation the zebrafish was chosen as model system. Females are able to spawn at intervals of 5 days laying hundreds of eggs in each clutch. Development progresses rapidly with precursors to all major organs appearing within 36 hours post fertilization. Zebrafish embryos develop externally, are translucent and continue to grow for several days despite developing severely malformed, non functional hearts. In addition, gene expression can be easily modulated. During the present study it has been shown that Nephronectin expression is correlated to valve development and trabeculation. Morpholinomediated knockdown of Nephronectin in zebrafish caused failure of valve formation and trabeculation resulting in > 85% lethality at 7 days post fertilization.
Cardiac valve formation is initiated at the junction of atrium and ventricle and is characterized by extracellular matrix deposition and endocardial cell differentiation. In accordance with the above-described phenotype the earliest observed abnormality in Nephronectin morphants was an extended tube like structure at the atrio-ventricular boundary. In addition, the expression of myocardial genes involved in cardiac valve formation (cspg2, fibulin1, tbx2b, bmp4) was expanded and endocardial cells along the extended tube like structure exhibited characteristics of atrio-ventricular cells (has2, notch1b and Alcam expression, cuboidal cell shape). Inhibition of has2 in Nephronectin morphants rescued the endocardial but not the myocardial expansion. In contrast, diminishment of BMP signaling in npnt morphants resulted in reduced ectopic expression of myocardial and endocardial atrio-ventricular markers. Taken together, these results identify Nephronectin as a novel upstream regulator of BMP4-HAS2 signaling playing a crucial role in atrio-ventricular canal differentiation.
This thesis combines behavioral and cognitive approaches regarding the Web for analyzing users' behavior and supposed interests.
The work is placed in a new field of research called Web Science, which includes, but is not restricted to, the analysis of the World Wide Web. The term Web Science is affected by Tim Berners-Lee et al., who invited the researchers to "create a science of the web" [BLHH+06a]. The thesis is structured in two parts, reflecting the intersection of disciplines that is required for Web Science.
The first part is related to computer science and information systems. This part defines the Gugubarra concepts and algorithms for web user profiling and builds upon the results by Mushtaq et al. [MWTZ04]. This profiling aims at understanding the behavior and supposed interests of users. Based on these concepts, a framework was implemented to support the needs of web site owners. The core technologies used are Java, Spring, Hibernate, and content management systems. The design principles, architecture, implementation, and tests of the prototype are reported.
The second part is directly related to behavioral economics and is connected to the areas of economics, mathematics, and psychology. This part contributes to behavior models, as was claimed by Tim Berners-Lee et al.: "Though individual users may or may not be rational, it has long been noted that en masse people behave as utility maximisers. In that case, understanding the incentives that are available to web users should provide methods for generating models of behaviour..."[BLHH+06b]. The focus here is on studies that investigate the user's choice of online information services in a multi-attribute context. The introduced research framework takes into account background and local context effects and builds upon theoretical foundations by Tversky and Kahneman [TK86]. The findings provide useful insights to behavioral scientists and to practitioners on how to use framing strategies to alter the user's choice.
The role of peroxisome proliferator-activated receptor gamma during sepsis-induced lymphopenia
(2011)
Sepsis is one of the most common diseases on intensive care units all over the world and accounts there for the highest mortality rate. One of the hallmarks of sepsis is an accelerated T-cell apoptosis, resulting in a compromised immune state with the inability to eradicate pathogens. This promotes organ damage or even organ failure. A multiple organ dysfunction evolves, which often ends up in septic shock and death. Recently, it was shown that severe T-cell depletion correlates with sepsis mortality. When inhibiting T-cell apoptosis, an increased mouse survival was observed in experimental sepsis. ...
This dissertation consists of three essays, which study the implication of financial frictions in business cycles and monetary policy making. The first essay develops a Dynamic Stochastic General Equilibrium (DSGE) model to study how the instability of the banking sector can amplify and propagate business cycles. Model simulations show that in an economic down turn, in addition to credit demand contraction induced by low firm net worth, low bank capital
position can create strong credit supply contraction, and have a quantitatively significant effect on business cycle dynamics. The second essay studies the optimal Taylor-type monetary policy rules based on the model developed in the first chapter and find that with interest rate smoothing, 'leaning against the wind' can significantly dampen the procyclicality of financial distortions, and increase the welfare of the economy. The third chapter examines the role of households frugality in a financial crisis and finds that higher savings by more frugal households provide an important cushion for the fall in private investment funding.